Vehicle attachment

ABSTRACT

Existing vehicle front frame suspension module. The technical disclosure of the innovative vehicle will operate on the existing automotive engine, heating and cooling system. Vehicle wider front structure which makes safer riding compared to a two wheel motorcycle. The handicapped will be able to see this innovate vehicle is easier to ride than a two wheel motorcycle. Vehicle maintenance can be done at most automotive repair shops. Vehicle rear suspension module can be attached and removed from an existing premanufactured automobile front frame suspension module.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

(Not Applicable)

NAMES OF THE PARTIES TO A JOINT RESEARCH AGREEMENT

(Not Applicable)

INCORPORATION-BY-REFERENCE OF MATERIAL SUBMITTED ON A COMPACT DISC OR AS A TEXT FILE VIA THE OFFICE ELECTRONIC FILING SYSTEM EFS-WEB

(Not Applicable)

STATEMENT REGARDING PRIOR DISCLOSURES BY THE INVENTOR OR A JOINT INVENTOR

(Not Applicable)

BACKGROUND OF THE INVENTION

Front safety structure compared to a two-wheel motorcycle. It also has more repair shops compared to the less motorcycle shops. The conventional automobile is easy to drive compared to a two-wheel conventional motorcycle and has climate control features for hot and cold weather compared to a two-wheel motorcycle with no climate control feature system. The conventional motorcycle also has disadvantages relative to an automobile when it is used for basic transportation rather than for sport. For example, the motorcycle is unstable when The conventional (premanufactured) four-wheel passenger automobile has always had a wide stationary or while traveling at a very low speed. The operator must place one foot on the roadway and exert physical effort to prevent a sideward toppling of the vehicle. This problem is eliminated when the invention is installed. The rear frame suspension module when installed to a premanufactured front suspension automobile, the passenger will sit in a straddled position. The vehicle will have a combined motorcycle and automobile appearance and have all of the advantages of a conventional automobile as mentioned above and will be supported by one wheel or two wheels. The rear frame suspension module is attached at the frame rails with welds or bolts to the premanufactured front frame rails suspension module, creating the invention.

BRIEF SUMMARY OF THE INVENTION

The invention includes an existing premanufactured vehicle comprising the front module which contains the engine, drive train for propelling the vehicle, the heating and cooling system, steering system, and front electrical system. Premanufactured vehicle passenger compartment has been transformed. The horizontal front seat and back seat of the premanufactured vehicle have been moved. The top and side doors of the vehicle have been removed. Premanufactured vehicle rear frame rails have been removed. The innovative rear suspension module has been installed which has a narrow passenger and cargo compartment. The seats, 1, 2, or more, are in a longitudinal center line of the vehicle front to back. The passenger can sit in a straddled position. The steering assembly is in a longitudinal center line of the vehicle. The vehicle rear frame suspension module is supported by one wheel or two wheels. The rear frame suspension model is attached at the frame rail with welds or bolts to the premanufactured front frame rail suspension module, creating the whole innovative vehicle.

BRIEF DESCRIPTION OF SEVERAL VIEWS OF THE DRAWING(S)

FIG. 1. A top elevation view of rear frame suspension module attached to a premanufactured vehicle front frame suspension module.

FIG. 2. A left side elevation view of the right side elevation view, being a mirror image. Both are views of the rear frame suspension module attached to a premanufactured vehicle front frame suspension module.

FIG. 3. A front elevation view of a premanufactured vehicle front frame suspension module.

FIG. 4. A rear elevation view of the rear frame suspension module.

FIG. 5. A rear bottom view showing two wheels supporting the rear frame suspension module.

FIG. 6. A front bottom view of a premanufactured vehicle front frame suspension module attached to the rear frame suspension module.

FIG. 7. A rear bottom view showing one wheel mounted on the vehicle rear frame suspension module.

FIG. 8. A rear perspective view of the vehicle rear frame suspension module attached to a premanufactured vehicle front frame suspension module.

FIG. 9. A front perspective view of a premanufactured vehicle front frame suspension module attached to the vehicle rear frame suspension module.

FIG. 10. A side image view of the innovative vehicle rear frame suspension module attached to a premanufactured vehicle front frame suspension module.

FIG. 15. A side view showing the vehicle rear frame rail suspension module attached to the front frame rail suspension module.

FIG. 16. A cutout view showing how the adjustment plate is fastened to the rear frame rail suspension module.

FIG. 17. A side view of the rear frame rail suspension showing how the wheel assembly is attached.

FIG. 18. A cutout view showing rear wheel assembly and rear frame rail connection.

FIG. 19. A side view of an existing whole, premanufactured automobile.

FIG. 20. A side view of an existing whole, premanufactured automobile with the rear module and front module being separated.

FIG. 21 A side view of the innovative rear frame suspension module attached to a premanufactured front frame suspension module.

FIG. 22. A side view of an existing whole, premanufactured automobile.

FIG. 23. A side view of a premanufactured automobile with the top being removed.

FIG. 24. A side view of an existing premanufactured automobile passenger compartment with the doors being removed.

FIG. 25. A rear view of an existing premanufactured automobile cargo space with the trunk door being removed.

FIG. 26. A side view of an existing premanufactured automobile passenger compartment with the seats being removed.

FIG. 27. A side view of an existing premanufactured automobile frame structure with the floor board being removed.

FIG. 28. A side view of an existing premanufactured automobile frame structure with all of the components attached to it.

FIG. 29. A side view of an existing premanufactured automobile frame structure with the tail pipe, muffler, and the torque tube being removed.

FIG. 30. A side view of an existing premanufactured automobile frame structure with the rear axle differential, rear springs, and rear shocks being removed.

FIG. 31. A side view of an existing premanufactured automobile rear and front frame suspension structures being separated.

FIG. 32. A side view of an existing premanufactured front frame module structure with the engine, transmission attached.

FIG. 33. A side view of the innovative rear frame rail module being attached to the premanufactured automobile front frame rail.

FIG. 34 A side view of the innovative rear frame rail module being attached to the premanufactured automobile front frame rail structure with welds or bolts.

FIG. 35. A side view of the innovative rear frame rail module at point of contact with the premanufactured automobile frame rail with a connection plate added.

FIG. 36. A side view of the innovative rear frame rail module with the floorboard being attached.

FIG. 37. A side view of the innovative rear frame suspension module with the seat frame support being added.

FIG. 38. A side view of the innovative rear frame suspension module with the seat mounting plate being added.

FIG. 39. A side view of the innovative rear frame suspension module with seat plate being added and cargo space being shown.

FIG. 40. A side view of the innovative rear frame suspension module with the seats being added.

FIG. 41. A side view of the innovative rear frame suspension module with the premanufactured steering wheel. Column is being moved from the left side of the vehicle to the center of vehicle; the premanufactured steering wheel is removed and replaced with a handle bar.

DETAILED DESCRIPTION OF THE INVENTION

The following detailed description should be read with reference to the drawings in which like elements in different drawings are numbered identically. The drawings, for illustrative purposes, which are not necessarily drawn to scale, depict selected embodiments and are not intended to limit the scope of the invention.

The invention starts with a whole premanufactured automobile or truck. For example, the rear frame suspension module can be attached to a premanufactured front frame suspension module of a Ford, Chevrolet, Chrysler, Nissan (and others) automobile or truck because they all have similar or the same frame rail structure and shape. FIG. 19

Once a premanufactured whole vehicle is selected, a person of ordinary skills in the pertinent art of fabrication and transformation, in an automobile manufactured setting, will start by disassembling the rear module structure of the whole vehicle, removing the top, removing side doors, removing seats in passenger compartment, and removing the floorboard in the passenger compartment. The premanufactured rear frame rail will be cut off approximately at the dash board mounting area and removed so that the old premanufactured rear frame suspension module can be moved out of the way and the new rear frame suspension module can be attached to the premanufactured front frame suspension module. FIG. 20.

Once the rear replacement module structure has been attached to the existing premanufactured front module structure, the innovation is a vehicle that would be used to carry one, two, or more passengers from point A to point B. Located in the existing premanufactured front module structure are the engine and drive train use for propelling. The front module has a heating and cooling system, a steering system, an electrical system, and a braking system. FIG. 21.

I claim the process of disassembling and removing existing premanufactured rear module will create space for the innovative rear frame suspension module, thus creating a combined motorcycle and automobile vehicle.

I claim the process that using existing premanufactured front module which contains existing mechanical components—the engine, drive train, heating and cooling system, steering system, electrical system, and braking system—will create a combined motorcycle and automobile vehicle.

I claim the process that using the application rear frame module and the premanufactured front frame module will create a whole, functioning, structured vehicle.

An existing vehicle 10 is shown in FIG. 1 and FIG. 2. Existing front frame module 10 attached to rear frame module with narrow passenger compartment 20. The compartment can have one, two or more seats mounted on the seat frame support chassis 25, 22, 23. Existing rear mirrors 14 can be used for safe driving. Existing front windshield 13 can used to protect passengers from the wind. Passengers can place their feet on floorboard 32, FIG. 4, while riding. The rear frame module has an exterior metal body 33, FIG. 2. The frame rail 30, and the rear frame are the foundation. Cross member 31. The rear frame suspension module can be supported by one wheel or two wheels 21.

FIG. 2 and FIG. 3 Existing front frame suspension exterior body module 12, existing front headlights 16, existing front bumper 15, existing two front wheels 11.

FIG. 5 Shows rear frame suspension module 20, 18 rear wheel hub and bearing assembly 37.

Rear frame suspension module is attached to front frame suspension module by frame rails. FIG. 6 and FIG. 15. Front frame rail 39 attached to rear frame rail 30 with nuts and bolts or welds FIG. 16, with existing engine installed 17, FIG. 6

One wheel supporting rear frame rail suspension module 20, 21, FIG. 7, FIG. 17, FIG. 18.

Rear frame suspension module 20 in a perspective view FIG. 8, left side.

Rear frame suspension module 20 in a perspective view FIG. 9, right side.

Rear frame suspension module 20 attached to front frame suspension module 10 as whole innovative vehicle showing a realistic image FIG. 10.

One, two, or more seats 24 and cargo spacing FIG. 1, FIG. 2, adjustable spacing which can be done in the passenger compartment by using the frame rail expansion space (increasing or decreasing the length of the frame rail) 38, FIG. 15, the adjustable connection plate FIG. 4 and the adjustable bolt holds 36 in adjustable connection plate 34, FIG. 16.

One or two wheels mounted on the rear frame suspension module 30, FIG. 5, FIG. 7, FIG. 17.

One or two wheels mounted on the rear frame suspension module 30 by using rear wheel hub and bearing assembly 37 with bolts and nuts 40, FIG. 18.

A whole existing premanufactured automobile 41, FIG. 19

A premanufactured rear module 81 being separated from premanufactured front module 82 FIG. 20

Innovative vehicle rear suspension module 20 being attached to premanufactured front module 10, FIG. 21

A whole premanufactured automobile 41, FIG. 22

Premanufactured automobile top being removed 45 from whole premanufactured automobile 41, FIG. 23

Premanufactured passenger compartment 51 showing premanufactured doors removed 50, FIG. 24

Premanufactured cargo space 53 showing premanufactured trunk door being removed 52, FIG. 25.

Premanufactured passenger compartment 51 showing premanufactured seats being removed 54, FIG. 26.

Premanufactured automobile frame structure 56 showing the floorboard being removed 55. Premanufactured frame rail 80. FIG. 27.

Premanufactured automobile frame structure 56 showing premanufactured engine 65, tail pipe 60, muffler 61, torque tube 62, rear axle differential 63, transmission 64, FIG. 28.

Premanufactured automobile frame structure 56 showing tail pipe 60, muffler 61, torque tube 62, rear axle differential 63, rear springs 70, rear shocks 71, all being removed, FIG. 29.

Premanufactured automobile frame structure 56 showing rear axle differential 63, rear springs 70, rear shocks 71 all being removed. FIG. 30.

Premanufactured automobile frame structure 56 showing premanufactured rear module frame rails 80 being removed. FIG. 31.

Premanufactured automobile frame structure 56 showing engine 65, transmission 64, attached to premanufactured front module frame rail 80, FIG. 32.

At this point, the installation process begins: premanufactured automobile frame structure 56 being attached to rear frame module 20, showing rear frame rail 30 attaching to front frame rail 80 at the connection point 72. FIG. 33.

Premanufactured automobile frame structure 56 attached to innovative rear frame rail 80 at the connection point 72. FIG. 34

Premanufactured automobile frame structure 56 showing actual rear frame module rail 30 attached. FIG. 35.

Innovative rear module floorboard being attached to rear module frame rail 30. FIG. 36.

Innovative rear module seat frame support 25 being added. Also showing cargo space 53. FIG. 37.

Innovative rear module 20 showing seat plate 73 being installed. FIG. 38.

Innovative rear module 20 showing seat plate 73 installed. FIG. 39.

Innovative rear module 20 showing seats being installed 54. FIG. 40.

Innovative rear module 20 showing premanufactured steering wheel 74 being removed. The premanufactured steering column 75 being moved from left side of vehicle to center of vehicle. Once the steering column is in center of vehicle the handle bar 22 is being installed. FIG. 41.

After completing this process of disassembly and reassembly, our scope has been completed with the finished product similar to FIG. 10. 

1. I claim the process of disassembling and removing existing premanufactured rear frame suspension module will create space for innovative rear frame suspension module, thus creating a combined motorcycle and automobile vehicle.
 2. I claim the process that using existing premanufactured front module which contains existing mechanical components—the engine, drive train, heating and cooling system, steering system, electrical system, and braking system—will create a combined motorcycle and automobile vehicle.
 3. I claim the process that using the application rear frame module and the premanufactured front frame module will create a whole, functioning, structure vehicle. 